【 摘 要 】

To understand the rich electronic phase diagram in FeSe under pressure that vividly demonstrates the strong interplay between the nematicity, magnetism, and superconductivity, we analyze the electronic states by including the higher-ordermany-body effects called the vertex correction (VC). We predict the pressure-induced emergence of xy-orbital hole pocket based on the first-principles analysis. Due to this pressure-induced Lifshitz transition, the spin fluctuations on the xy orbital are enhanced, whereas those on xz, yz orbitals are gradually reduced. For this reason, nonmagnetic orbital order O = n(xz) - n(yz), which is driven by the spin fluctuations on xz, yz orbitals through the intraorbital VCs, is suppressed, and it is replaced with the magnetism of xy-orbital d electrons. The nodal s-wave state at ambient pressure ( O not equal 0) and the enhancement of T-c under pressure are driven by the cooperation between the spin and orbital fluctuations.

【 授权许可】

Free